Seasonal contrast of water masses and larval fish habitats at the entrance of the Gulf of California

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
David Landeros-Tafolla , Laura Sánchez-Velasco , Emilio Beier , S.P.A. Jiménez-Rosenberg , J. Alejandro Kurczyn , Victor M. Godínez
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Abstract

Based on satellite and in situ data and larval fish distributions obtained from two cruises during April 2012 (cold period) and September 2016 (warm period), larval fish habitats were analyzed in relation to the water masses that converge at the entrance of the Gulf of California. The distribution of environmental variables and the ocean upper layer water masses showed a clear-cut seasonal contrast. During April 2012, the Gulf of California Water extended southward to ∼21oN, while in September 2016, the Transitional Water expanded northward to ∼23oN to dominate the entrance of the Gulf of California as the Gulf of California Water retreated to the interior gulf. In addition, mesoscale eddies were frequently observed in both periods, mostly cyclonic in April 2012, and anticyclonic in September 2016. Multivariate analyses defined two larval fish habitats in each period: North and South of a boundary between 22 and 22.5oN. The larval structure of the North larval fish habitat varied in both composition and abundance between periods, although the dominant species in both periods were Vinciguerria lucetia above the thermocline and Diogenichthys laternatus in the layer beneath the thermocline. These species had a higher abundance in April 2012 than in September 2016. The South larval fish habitats also had differences in their larval structures in the two periods, but Bregmaceros bathymaster was the dominant species, with the highest abundance in April 2012. The definition of the larval fish habitats and their changes in structure were associated with the seasonal contrast of the water masses, but the limits of the larval fish habitats were modulated by the mesoscale structures. The spawning of most species is seasonally controlled, but the dominant ones showed signs of resilience to environmental changes. This study displayed the influence of two different environmental scales on the fish larvae community, which might be a pattern in other regions of water mass convergence.

加利福尼亚湾入口处水体和幼鱼栖息地的季节对比
根据2012年4月(寒冷期)和2016年9月(温暖期)两次巡航获得的卫星和现场数据以及幼鱼分布,分析了幼鱼栖息地与加利福尼亚湾入口处汇聚的水团的关系。环境变量和海洋上层水团的分布呈现出明显的季节对比。2012年4月,加利福尼亚湾水向南延伸至~21°N,而在2016年9月,随着加利福尼亚湾水向内陆湾撤退,过渡水向北延伸至~23°N,主导了加利福尼亚湾的入口。此外,在这两个时期都经常观测到中尺度涡旋,主要是2012年4月的气旋涡旋和2016年9月的反气旋涡旋。多元分析确定了每个时期的两个仔鱼栖息地:北纬22度至22.5度之间边界的北部和南部。北部仔鱼栖息地的仔鱼结构在不同时期的组成和丰度上都有所不同,尽管这两个时期的优势物种都是温跃层上方的葡萄Vinciguerria lucetia和温跃层下方的Diogenthys laternatus。这些物种在2012年4月的丰度高于2016年9月。南部仔鱼栖息地在这两个时期的仔鱼结构也存在差异,但Bregmaceros depthymaster是优势物种,2012年4月的丰度最高。幼鱼栖息地的定义及其结构变化与水团的季节对比有关,但幼鱼栖息地范围受中尺度结构的调节。大多数物种的产卵受到季节性控制,但占主导地位的物种表现出对环境变化的恢复力。本研究显示了两种不同环境尺度对鱼类幼虫群落的影响,这可能是其他水团聚集区域的一种模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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